Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prostaglandin H2 synthase (PGHS)-1 and PGHS-2 expression was examined in primary cultures of human amnion cells, an in vitro model of amnion tissue. Epidermal growth factor (EGF), the protein kinase C (PKC) activating phorbol ester TPA, and the protein phosphatase inhibitor, okadaic acid (OA), stimulated PGHS activity and the level of PGHS-2 mRNA, but did not affect the level of PGHS-1 mRNA. In situ hybridization suggested that the same population of cells responded to EGF, TPA and OA. Okadaic acid promoted PGHS activity independently of PKC. EGF stimulated the activity of extracellular signal-regulated protein kinase (Erk) and N-terminal c-Jun kinase (Jnk). OA increased Jnk activity but had no effect on Erk activity, while TPA had no influence on either Erk or Jnk activity. PD098059, a selective inhibitor of the Erk-activating kinase MEK, blocked the stimulation of PGHS expression by EGF, but did not decrease stimulation in response to OA. Herbimycin A, a tyrosine kinase inhibitor, suppressed the stimulation of PGHS activity and PGHS-2 mRNA abundance by all three stimulants, and blocked signalling via the Erk and Jnk mitogen-activated protein kinase pathways. Thus, growth factor stimulation, PKC activation and protein phosphatase inhibition induced the expression of PGHS-2 in primary amnion cells by distinct regulatory mechanisms involving tyrosine kinase(s). Tyrosine kinase inhibitors may constitute a new category of PGHS-2 inhibitors that act by blocking the expression of the enzyme.
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PMID:Regulation of prostaglandin H2 synthase-2 expression in primary human amnion cells by tyrosine kinase dependent mechanisms. 951 44

Unlike the cross-linking of membrane immunoglobulins, the activation of B cells by lipopolysaccharide (LPS) does not involve the phosphoinositol turnover and the initial activation of tyrosine kinases. However, LPS-induced B-cell proliferation was inhibited by the tyrosine kinase inhibitors genistein and herbimycin A even when added 48 h after the beginning of the culture. Tyrosyl-phosphorylated proteins were detected by Western blotting after 24 h of culture with LPS, reaching a maximum concentration after 72 h. Late tyrosine phosphorylations were also detected in B cells activated for 72 h with anti-immunoglobulin M antibody and were abrogated by the protein synthesis inhibitor cycloheximide, the tyrosine kinase inhibitors genistein and herbimycin A, and the protein kinase C inhibitor chelerythrine. The role of protein kinase C in late tyrosine kinase activation is independent of Ca2+ mobilization and was confirmed by detection of a comparable but restricted pattern of tyrosine-phosphorylated substrates in B cells treated with phorbol myristate acetate alone or in association with ionomycin. Tyrosine kinase activation was dependent on de novo protein synthesis. However, culture supernatants of LPS-activated B cells were devoid of mitogenic activity and induced a phosphorylation pattern more restricted than that achieved by LPS. Altogether these data indicate that proliferation signals induced by LPS or by the cross-linking of membrane immunoglobulins are controlled by late tyrosine phosphorylations occurring throughout the first 3 days of culture, controlled in part by protein kinase C activation, and dependent on the synthesis of an intermediate protein(s) either not secreted in the culture supernatant or present but biologically inactive in naive B cells.
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PMID:Mitogenic response of murine B lymphocytes to Salmonella typhimurium lipopolysaccharide requires protein kinase C-dependent late tyrosine phosphorylations. 959 15

Cord blood is increasingly used for hematopoietic stem cell transplantation since less severe graft-versus-host disease has been reported leading to the notion that cord blood is "naive." Human leucocyte antigen (HLA) class II molecules are expressed throughout B lymphocyte ontogeny (except the plasmocytes), are responsible for antigen presentation, and can also transmit signals. Cord blood B stimulate an allogeneic response, and this property is believed to indicate the presence of a class II-associated peptide. In this study we examined the capacity of cord blood B to transmit signals via HLA-DR. Activation and relocalization of protein kinase C (PKC) isoenzymes alpha and betaII was detected along with tyrosine kinase activation and proliferation. However, in contrast to resting adult B, generation of an intracellular calcium ([Ca++]i) flux and rapid aggregation were not detected. To address the question of whether or not HLA-DR signals throughout B lymphocyte ontogeny, we extended this study to include malignant adult B (B chronic lymphocytic leukemia [B-CLL], B mantle cell lymphoma, and B large cell leukemia). Tyrosine kinase activation and proliferation were observed in all these cell populations, albeit in the absence of [Ca++]i flux or an increase in PKC. HLA-DR therefore transmits signals throughout B lymphocyte ontogeny, although different signaling pathways are initiated in adult vs. fetal vs. malignant B. The lack of intracellular [Ca++]i flux in both cord blood and malignant B lymphocytes may represent a feature of HLA class II signaling at a particular stage of differentiation, although the downregulation of PKC clearly distinguishes between cord blood B and B-CLL.
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PMID:Signal transduction via human leucocyte antigen class II molecules distinguishes between cord blood, normal, and malignant adult B lymphocytes. 969 9

Decrease in intracellular thiols leads to oxidative stress and thus may cause alterations in the activity of redox-sensitive enzymes required for signal transduction. Here, we report that, N-ethylmaleimide and phenylarsine oxide, which are known to oxidize free thiols as well as protein thiols, induced phosphatidyl ethanol generation in the micromolar range suggesting activation of phospholipase D in vascular smooth muscle cells. These agents also induced significant phosphatidic acid and diacylglycerol generation without causing protein kinase C activation. Phenylarsine oxide and N-ethyl maleimide induced phospholipase D activation is protein kinase C independent as it was not inhibited by compound-3 and bisindolylmaleimide, potent protein kinase C inhibitors. Tyrosine kinase inhibitor herbimycin A by itself activated PLD, but inhibited the phospholipase D activation by phenylarsine oxide and N-ethylmaleimide. These results suggest that oxidation of the cellular thiols activates phospholipase D independent of protein kinase C.
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PMID:Redox regulation of signal transduction in vascular smooth muscle cells: thiol oxidizing agents induced phospholipase D. 981 1

The role of ANG II in the regulation of ion reabsorption by the renal thick ascending limb is poorly understood. Here, we demonstrate that ANG II (10(-8) M in the bath) inhibits HCO-3 absorption by 40% in the isolated, perfused medullary thick ascending limb (MTAL) of the rat. The inhibition by ANG II was abolished by pretreatment with eicosatetraynoic acid (10 microM), a general inhibitor of arachidonic acid metabolism, or 17-octadecynoic acid (10 microM), a highly selective inhibitor of cytochrome P-450 pathways. Bath addition of 20-hydroxyeicosatetraenoic acid (20-HETE; 10(-8) M), the major P-450 metabolite in the MTAL, inhibited HCO-3 absorption, whereas pretreatment with 20-HETE prevented the inhibition by ANG II. The addition of 15-HETE (10(-8) M) to the bath had no effect on HCO-3 absorption. The inhibition of HCO-3 absorption by ANG II was reduced by >50% in the presence of the tyrosine kinase inhibitors genistein (7 microM) or herbimycin A (1 microM). We found no role for cAMP, protein kinase C, or NO in the inhibition by ANG II. However, addition of the exogenous NO donor S-nitroso-N-acetylpenicillamine (SNAP; 10 microM) or the NO synthase (NOS) substrate L-arginine (1 mM) to the bath stimulated HCO-3 absorption by 35%, suggesting that NO directly regulates MTAL HCO-3 absorption. Addition of 10(-11) to 10(-10) M ANG II to the bath did not affect HCO-3 absorption. We conclude that ANG II inhibits HCO-3 absorption in the MTAL via a cytochrome P-450-dependent signaling pathway, most likely involving the production of 20-HETE. Tyrosine kinase pathways also appear to play a role in the ANG II-induced transport inhibition. The inhibition of HCO-3 absorption by ANG II in the MTAL may play a key role in the ability of the kidney to regulate sodium balance and extracellular fluid volume independently of acid-base balance.
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PMID:Angiotensin II inhibits HCO-3 absorption via a cytochrome P-450-dependent pathway in MTAL. 1033 55

Interleukin-2 (IL-2) plays a vital role in the generation and regulation of the immune response, including important aspects of T cell survival. IL-2-mediated survival of T cells appears to be dependent on the activation of a pool of membrane-associated protein kinase C (PKC) that occurs in the absence of detectable translocation of the enzyme from the cytosol to membranes. In this report we investigate the mechanism(s) responsible for this PKC activation after IL-2 stimulation in the cytotoxic T cell line, CTLL-2. Tyrosine kinase activity, activated after IL-2 stimulation, was found not to be linked to the activation of PKC by the cytokine. On the other hand, a pertussis toxin (PTX)-sensitive G protein did appear coupled to PKC activation since PTX effectively blocked IL-2 stimulated PKC activity. Diacylglycerols (DAG), but not inositol 1,3,5-triphosphate (IP3) and intracellular Ca2+, increased after IL-2 stimulation suggesting that DAGs were generated via the phosphatidylcholine-phospholipase C (PC-PLC) or phosphatidylcholine-phospholipase D (PC-PLD) pathways. The increase in DAG by IL-2 was probably necessary for activation of membrane-resident PKC since exogenously applied DAG stimulated this PKC pool in both intact cells and in isolated membranes. IL-2 also increased arachidonic acid (AA) production in CTLL-2 cells, probably via phospholipase A2 (PLA2) since the PLA2 inhibitors oleoyloxyethyl phosphocholine and AACOCF3 (AACF) effectively blocked IL-2 stimulated PKC activation. Exogenous AA also increased PKC activity in intact cells and isolated membranes, suggesting that AA produced by IL-2 receptor stimulation was probably linked to PKC activation. These results suggest that the activation of membrane-resident PKC by IL-2 involves multiple second messengers, including G proteins, DAG and AA.
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PMID:Signalling events mediating the activation of protein kinase C by interleukin-2 in cytotoxic T cells. 1037 5

The effects of Ca2+ withdrawal and agents affecting Ca2+ translocation on alpha1-adrenoceptor-mediated vasoconstrictor responses in the perfused rabbit ovarian vascular bed were studied. Noradrenaline-induced vasoconstriction was lost in a Ca(2+)-free Krebs' solution, and the rate of loss of the response was accelerated by EGTA (2 mM). Noradrenaline-induced vasoconstriction and SDZ NVI 085-induced vasoconstriction were concentration-dependently inhibited by verapamil and nifedipine. These agents were, however, more effective against KCl-induced responses. Cyclopiazonic acid, an intracellular Ca(2+) depletor, concentration-dependently inhibited noradrenaline-induced responses and abolished the response in Ca(2+)-free Krebs' solution. GF 109203X and polymyxin B, inhibitors of protein kinase C (PKC), had no significant effect on noradrenaline-induced responses. Tyrosine kinase inhibitors, genistein and erbstatin, inhibited noradrenaline-induced vasoconstriction in the perfused rabbit ovarian vascular bed. The results would suggest that both extracellular Ca2+ and intracellular Ca2+ participate in noradrenaline-induced vasoconstrictor responses in the perfused rabbit ovarian vascular bed. The results would also suggest that tyrosine kinase and not protein kinase C activation has a role in such effects.
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PMID:Source(s) of activator calcium for noradrenaline-induced vasoconstriction in the perfused rabbit isolated ovarian vascular bed: a role for tyrosine kinase. 1038 58

Hemodynamic forces are important determinants for the formation of atherosclerotic plaques. The recruitment of circulating monocytes into the arterial wall is an important step during atherogenesis. Monocyte chemotactic protein-1 (MCP-1) has been shown to be a key factor for monocyte transmigration. This study examined the effects of cyclic strain on MCP-1 mRNA expression levels of cultured rat aortic smooth muscle cells. The MCP-1 mRNA levels of aortic smooth muscle cells first increased as the duration of cyclic strain increased, reaching the maximum at 6-12 h, maintained at high levels throughout the 48-h strain period. To explore signaling pathways mediating cyclic strain-stimulated MCP-1 mRNA expression, we examined the involvement of tyrosine kinase and protein kinase C (PKC). Tyrosine kinase inhibitors, genistein and tyrphostin 51, at 50 microM blocked cyclic strain-stimulated MCP-1 mRNA expression. Preincubation with a PKC activator, phorbol 12-myristate 13-acetate (PMA), 2 microM, for 24 h to downregulate PKC did not decrease cyclic strain-induced MCP-1 mRNA expression. A 6-h incubation with 0. 1 microM PMA to activate PKC, which stimulated MCP-1 expression when applied alone, abolished the stimulatory effects of cyclic strain. A specific PKC inhibitor, calphostin C (0.1 microM), diminished cyclic strain-stimulated MCP-1 mRNA expression. Angiotensin II at 10 or 1,000 nM induced a moderate upregulation of MCP-1 mRNA, and no synergistic effects were observed between angiotensin II and cyclic strain. These results indicate that cyclic strain stimulates MCP-1 mRNA expression in smooth muscle cells through signaling pathway(s) mediated by tyrosine kinase activation.
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PMID:Cyclic strain stimulates monocyte chemotactic protein-1 mRNA expression in smooth muscle cells. 1061 46

The effects of angiotensin II (Ang II) are mediated primarily by Ang II type 1 receptors, which in turn are coupled to heterotrimeric G proteins. After receptor activation, the G(alpha) and G(betagamma) subunits dissociate, contributing to the signaling cascades involving protein kinase C (PKC) activation. Regulators of G protein signaling (RGS proteins) comprise a class of proteins that have been shown to negatively regulate the G(alpha) subunit. We examined which RGS sequences were expressed in vascular smooth muscle cells and which of these were regulated by Ang II. Reverse transcription-polymerase chain reaction showed that of 16 RGS sequences screened, six RGS transcripts (RGS2, 3, 10, 11, and 12 and GAIP) were present. Northern blot analysis demonstrated that RGS3, 10, and 12 and GAIP were not regulated by Ang II at the mRNA level. In contrast, RGS2 mRNA was rapidly and dose dependently increased (395 +/- 24% peak, 45 min) by Ang II but returned to baseline level by 6 to 8 h. Phorbol-12-myristate-13-acetate, a PKC activator, robustly increased RGS2. This signal was attenuated by the PKC inhibitor GF 109203X (50 +/- 4%) and by phorbol-12, 13-dibutyrate-mediated down-regulation of PKC (48 +/- 13%). Tyrosine kinase inhibition and calcium deprivation did not affect the up-regulation of RGS2 mRNA after Ang II stimulation. Actinomycin D treatment inhibited both Ang II- and phorbol-12-myristate-13-acetate-stimulated RGS2 up-regulation, suggesting activation of transcription by these agonists. The stability of RGS2 mRNA did not appear to be affected by Ang II. Thus, RGS2 is a likely candidate for negative regulation of the G proteins coupled to the Ang II type 1 receptor in vascular smooth muscle cells. Regulation of this protein may be of critical importance in modulating the role of Ang II in vascular disease.
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PMID:Specific regulation of RGS2 messenger RNA by angiotensin II in cultured vascular smooth muscle cells. 1069 85

In this study, we examined the possibility that infarct-size limitation by repetitive preconditioning (PC) is achieved by activation of both protein kinase C (PKC) and tyrosine kinase. In addition, we assessed whether such kinase activation is triggered by angiotensin II type 1 (AT1) and alpha1-adrenergic receptors and whether sarcolemmal and mitochondrial adenosine triphosphate (ATP)-sensitive potassium (K(ATP)) channels play roles as effectors of cardioprotection in the rat. Under pentobarbital anesthesia, myocardial infarction was induced by 20-min coronary occlusion and 3-h reperfusion in the rat. Infarct size was determined by tetrazolium and expressed as a percentage of area at risk (%IS/AR). PC with one cycle of 5-min ischemia/5-min reperfusion before 20-min ischemia significantly reduced %IS/AR from the control value of 49.4 +/- 2.0 to 35.4 +/- 2.8, and repetitive PC with two cycles of 5-min ischemia/5-min reperfusion further limited %IS/AR to 3.2 +/-0.9. Infarct-size limitation by single-cycle PC was completely abolished by a PKC inhibitor, staurosporine (100 microg/kg; %IS/ AR, 45.7 +/- 5.0). In contrast, the cardioprotection by repetitive PC was only partially blocked by staurosporine (%IS/AR, 19.8 +/- 2.4), another PKC inhibitor, polymyxin B (5 mg/kg; %IS/AR, 16.2 +/- 3.1), or a tyrosine kinase inhibitor, genistein (5 mg/kg; %IS/AR, 21.8 +/- 1.4). However, a combined injection of genistein and staurosporine additively inhibited protection of repetitive PC (%IS/AR, 36.4 +/- 1.7). Staurosporine, polymyxin B, or genistein alone did not modify %IS/AR in nonpreconditioned rat hearts. Infarct-size limitation by repetitive PC was not attenuated by pretreatment with a selective AT1-receptor blocker (CV11974, 10 mg/kg), prazosin (0.6 mg/kg; %IS/AR, 6.4 +/- 3.2 and 1.6 +/- 0.5, respectively). A selective blocker of mitochondrial K(ATP) channels, 5-hydroxydecanoate (3 mg/kg), completely abolished the cardioprotective effect (%IS/AR, 50.8 +/-3.5), but HMR1883 (3 mg/kg), a selective blocker of sarcolemmal K(ATP) channels, failed to inhibit the preconditioning effect (%IS/AR, 4.4 +/- 0.7). These findings suggest that repetition of PC provokes activation of both PKC and tyrosine kinase, leading to enhanced antiinfarct tolerance by opening of mitochondrial but not sarcolemmal K(ATP) channels. It is unlikely that activation of either AT1 or alpha1-adrenergic receptor alone is crucial to trigger preconditioning. Key Words: Tyrosine kinase-Genistein-Angiotensin II-alpha1-Adrenergic receptor-Sarcolemmal K(ATP) channel-Mitochondrial K(ATP) channel.
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PMID:Roles of tyrosine kinase and protein kinase C in infarct size limitation by repetitive ischemic preconditioning in the rat. 1071 Jan 17


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